Humidifying apparatus and means for controlling same.



` `J. I. LYLE. HUHIDIE'YING APPARATUS AND MEANS FB CONTBOLLING SAME.

APPLnu'rIolr FILED lov..4,1`s1p.

1,001,869. Tamm-Aug. 29, 1911.

WITNESSES';

' isto housed under-pressure. however,l the' foregoing method `is uneco'nomlcal, because of `the* amount of refrigeration required; 4it f deterr'nin'ing Vthe `moisture content underj compression is however that while ftheamount of moisture which wlllV be car-1 dependent upon thelquantityfof air4 con-- .being had'to theaccompanying drawings, zaforming a part thereof.

tiyeen the'moisture. in compressed air, and the air byfq'uantity orWeight,-regardles' s of `r 'moisture vini air at any' given-pressure, at- 'mosph'efic ressure for instance, 1t 1s' com- Yu'hile `fully Satiiratingit," to'a point wherein a given quantity of theair will `just the required amountoi moisture. -Therequantity of# moisture after' compression, for.A under -jsuch 'conditions the' vthe cooling may he effected "j tained in ajgivenspace-is' dependent upon' temperature of 314 degrees Fal1renheit, will carry almost exactly 2; grains `of moisture `per cubic`foot, lWhile saturated air atl 50 pressurewilljcontaiu'j'ust double the quanl unirsi) smrrrsrrrnrTerrier.

JOEL navrnii 1311s orrLAINFInLDQN EDWARD T. MuaPHY," or PHILADELPH1A, rENNsYLvAnLA.

HUMI'DIFYING v.Prama'isus Ann :muslimsv Fon coN'rBoLnNa To `all whom'itmay jBe it k yown' that 1,13' onLIRviNELYLri, `a-

`of ,the United 1 States of. Au'lerica, -resident of Plainfield, u county of and State-ofmNew Jersey,. hav e incertain new and useful v Impr-oye.. in` `Humidifyin Apparatus and Union, vented mentsA l Means for Controlling t eSame,"of which the followingis -a-"spec'ifi'cat-ion, reference My invention relates to means Vfor maintaining `a`1 lconstant Vand uniform ratio' beits" ressure, and of its final temperature. .l o accurately determinethe quantityof.

mon tore uce the temperature Aof theair,

contain aterg provided further moisture f be i eily cluded,-fthe, air maybe raised to any higher temperature," withoutV varying the Vrat-io already determined, and it'may also becompressed, `providing in compression," orzthereaftenvthegt'em erature is not allowed 'toV fall below thehig er 'degreeof-.tem' rature 'required by the compression.'l enathe air tained, in 4that space.' For instance satu'-` rated air atatniosphericLpressure,,and at a egress 1 Fahrenheit, and at atmospheric application 'med Nvemter 4, '1910.1 stamina.'590,655:`

f not I a direct proportion.

like, wherein compressed air is employed, the requlred pressurewhereofvariesfyet the of whch should remain specification o 'f Letters raamt.` Patetd, 1911, l

tity ofi moisture or'almost grains. But t-W'o or three lor-"more-cuhic vfeet' of air,

compressed into Va space of-one cubic foot,

namely "31 or" 50A degrees, wilhclry -when saturated just the same amount ofjmoisture,

. viz.,'2 grains at 3 1, degreesfandgrains at F 50 degrees." .If thenvit hel'Arequ irged to main! tain a constant ratio hetweeu'thesmoisture 3 and `the air, by` Weight or quantity', it will'y lbe necessarygto raisethe-temperaturefthe '-ai'r, at the-moment' 'the moistureisrtolbielde-v l termined, to lan iainount whereinzupon sa'tu'- :rat-ion `t-vifill take upthegreater amount'vof' moisture required. Fori instance, referring to the foregoing illust-ration,\ itzwill be apparent that *ifV -1t desired'to 'maintain` a uniformratioof 2, each Vcubic footof air, or inifot-her words as each cubic foot of dryairweighs about560 l grains, of-maintaining a ratioofv 2 ains of moistureto eachg560 grains oan-,it will Abe necessary, when -'two cubic feet of atmospheric air'l 1ntc1a"'spaee of lone `cubic foot, to raise-the tem crut-ure of the' compressed air tov 5.0 degrees'Fahrenheitf The Volnectof my present inventionis to compression inthe required proportionas the pressure thereof varies, it, beingy underfrily follows aj fixed lati7 it This" class of apparatus .particularly grainsv of. moisture to y provide a simple and'.eflicient Ameans for fvarylng they temperature cfg-fthe air under stood that While isuch proportion Inecessaavarying and.

useful inNr .connection with? metallurgical proceSSes, such as those carried outin Bes' f semer converters, `blast furnaces,.`and thel moisture content-.- unchanged In order that inyention may ,be -fully understood 'Il 'yfvill now' proceed to describe Aan apparatus constitutingan embodiment thereof,v havingreference to the accompanyring drawings, illustrating the same,

will

then v point out the jnovel features in'l claims.

thedrawings: Figurel isa viewin partial side elevation. and' partial central constructed.' in; accordance.: with. my y'inveni tion. Fig'. 2` is 'a' face View of ,the controlling device upon a largerscale;

The apparatus shown conslsts inf` general 105` vertical longitudinal section oi an apparatus f of a blowing engine 5 arranged to compress atmospheric air to the required extent, a hirmidifying and cooling apparatus 6 for receiving compressed air and .which may be termed a dew-point c'oolerv because of the fact that it is arranged to cool the Aair and to deliver it 'at the required temperature in a fully saturated condition, and a controlling device 7 -for 'controlling the cooling apparatus in such a way as to determine the temi perature atwhich the tair is delivered therey from.

Th'e air leading from the dew-point coolerwill be conveyed to any suitable point of use such for instance, as Bessemer converter, blast furnace, or other apparatus 1n\which v it is to be employed as will be well underi supply pipe 14 of the pump connecting with stood. v

' The dew-point 'cooler comprises a substantially cylindrical shell inclosing a chamber, 8 in which are arranged a plurality of' pipes 9 having spray nozzles therein.

pipes 9 constitute branches from a supply The pipe 10 through which relatively cold Water will be delivered for the purpose of cooling vthe compressed air delivered to the chamber 8 from the blowing'engine 5 and .supplying moisture'thereto. Eliminator plates 11 are conveniently arranged near the forward end of the dew-point cooler in order to entrap` any entrained water, whereby the air deliv- Y ered through the delivery pipe 12 will be dry but thoroughly saturated, that is to say, ivhile'it Will belat the dew-point it will carry no free water with it. The cooling water is'supplied to the pipe 10 bym'eans' of a pump 13 or other suitable means, the

g Atothe refrigeratingmachine to be again pipe 14 to the circulating pump cooled therein, and re-supplied through the 13. The return pipe 17 `is provided with a. branch 18 which vleads toa mixing valve 19 arranged in the supply pipe 14. The mixing valve 19 is of such,acharacter that in one position l' it`will afford direct and open communication through vthe s upply pipe 14 tothe pump 13,l` cutting `oil any connection from the branch pipe 18 therewith; in anothcrposition it will open communicationbetween the branch pipe 18 and the portion of the supply pipe 14 leading from the mixing valve to the pump 13,' closing communication between lthis portion of the supply pipe `and the portlon thereof upon the other side .of the mix/ing valve; and in intermediate position 't will open both of the said connections in varying proportions. By this means it will be seen that water. at'any temperature from that ofthe fully cooled water from the refrigerating or other apparatus, to that of the relatively heated return water from the dew-point cooler, may besupplied to the pump 13 in accordance with the position of the valve 19.l The position of ithis Valve is regulated by means of a fluid pres- -sure-motor 20, and the operation ofthe said I fluid pressure motor 2() is .controlled by means of the controlling or regulating device 7. This controlling or regulating device includes. three expansion chambers 21-22-23, and an air valve 24 controlled by the combined action of all three of them. In Ythe presentexample of my invention I have shown the air valve as atthe termination ofa pipe 25 .which leads to the supply pipe 26for'the compressed motivefluid for the fluid pressure motor 20. The said supply pipe 26 has a restricted opening 27 of a diameter smaller vthan the diameter of the' pipe 25. When the valve 24 is closed, uid

under pressure supplied through the pipe 26 willbuild up in vthe pipe 25 and in the .diaphragm chamber oit' the fluid pressure lmotor 2 0 so' as to move the valve 19 in one direction. If the air valve'24 be opened, however, air will be vented through the pipe 25 from .the diaphragm chamber of the motor '20 whereby to permit the valve 19 to move in the opposite direction, the re-l stricted opening 27 in the supply pipe' 26 preventing the airfrom being supplied rapidly enough to takethe lace of that vented through the pipe 25. n other words, the pip'e -25 will have a capacity s'ulicient to allow the air supplied when the valve 24 is opened, to be freely discharged .through the said valve 24. It will of course be understood'that this particular method of operating the valve 19 is only one of many which may be employed, and is'one which 1s 1n common use in controllingmeans of various descriptions at the present day.

The lconnections between the expansion chambers 21 and 22 comprise a lever 28 fulcrumed at 29 to a stationary part of the device, another lever 30 fulcrumed to a slide 31 mounted uponv a guide-Way 32, anda link 33 pivot-ally connecting the free ends of the .levers 28 and 30 together. The lever 28 is arranged to engage-the moving wall of the expansion chamber 21 while the'lever 30 is pipe 34 with a closed chamber 35 located in the 'forward or discharge end of the dew-l 22 is in dew-point cooler' atj its Vdischarge endf-v vThe closedfchalnber 35 may be filled with'any` suit'able'fluidsuch as air `under pressure or a volatile li uid.y Being exposed toA the ternperature ol the, air-currents passing throughV the Jdevvfpoint cooler', the fh'ndfnv this closed chamber expand contract as the teinv tithe air currents risesand vvfalls,

and 5 the Il xpansion chamber .vvill rvexto;` !{On the Qtherhand,.thc expansionchaln` ber .f22ffbeing directly ,opento the Vair cura` rents themselves, the fsa-1d'v 'expansion' cham-j: berl will be expanded or contracted r'o. portion as the pressure of the 'airinthfeenfpoint cooler varies, The expansion cliar'nber 21` is therefore controlled by'the 'temperature A. jot; -the ain currents whilejtheQexpansion chamber is controlled; by Ithe thereof. The"v two. `exp'ansion ,lr-chambers `in temperature the compensatng 'rise of 90 elf-22 bm ga 28and'30 injopposite directions sothatwhen" in balance the evers y28 and'll will .remain stationaryl ltlhvwevr, thePrSSurwf-.tha

air.. currents l,slnnlld rise the?. preponderance .offpresm 'sinf-chamber-e. over that `{in the 1 expansion chamber 21j-will '.-levers 30--28 .to move over 'tdt-hef 11d yto -'closei the 'nini-valve .The

relatively cold water sup 1y and open or.'V `partiallv; openv the relative y hot 'watersup-"- of present-ein .thejuid pressure motor 20' of fthe mixing :valve: '19, j therebp1 Wi'lvedt) SQfaS': tof.. c1036 or Apantally` closek the ply. fTheeifed. thereoffwilllbefthiitthe alanee `that in thechamber. 22..v1f theternperature rises too vniuch thevalve* 24 'will be opened f and the 'motor of the mixing valvewill operate so Las' to decrease vthe supply of hot ,Water` and; the supply l o subaneni emptiness-off the l surepofthexair o rxztallsy the-balance 'u'm, and? thiswill continue for `un; @straling device-'win be dismbeaand Ava* wayas to cause `the position 'of the mixing valve 19' t'o'change Ato increase: o'rjdecrease the vinst their. respective levers' moving lI the coli',A Y' thereby again vneducin 'the .thede'w-point coole'r, n ordinary operation a point ofbalancewill be'afrrived at wherein. the position` of. thevalvejltlfwillreinain'in" ra consent' position non:.ma1 the ha ...and eoldwater supply-soneto maintain a .Vpint cooler, while the" eirpansionv .temperature of the coolindgfrn'edium supplied ogen communication throughs ipey e 'interior of-the'chamber o the `to thev 'dew-pointoo oler,vvherebyl the temperature of (the air deliveredy therefrom" will thereof.y As lhas already been statedfhowbetween the temperature and pressure of the `-air delivered from the dew-point coolerk is not a direct one Asa .matterjof factfor 'siyely increasing amount. For instance, the devvp'oint [temperature necessary. to main- "tainf 2,0214- g'rairis `of moisture in` fa'. thousand spa9eyrequired to jcofntain' such air at ,3.48

v square inch. a ove Aatmospheric jpressure, is 39 degrees Fahrenheit If thistemperature `fis raised one deg-reethe' reluired risein `presf'sure toV compensate" there lf'is `:"72 ,`*th'e.4 re

inch. u N o w forkanothel', of 'oneldegre 4pre,ssufrejis l"12125; th @quired pressure being 1 4.91125l pounds iper 'sqiafr'e1nch;F Again :fora square inch, 'w ile for onedegree increase Vof temperature .thei'required pressure is 11:8815

necessary {toprovide 1 compensating means the'ivariations in theI pressurefandtem rature ofthe cooler and compressed air. uri

Q'Wherein.. the .',pressure l ls. varied in .jatuated meansrincludes a closed -chamb 1iquid,i talso"becomes necessary to 'compen-v :by theffllowing,.lf

flvap'or pound-fof. air in`` `the 4air delivered .1y .the dew-pointv cooler,` and. say. the Vgage ;;Pre ssure, e'. eQ, the*pressure above atmosplienc pressure of the airI inthe dew-'point coolers-.Were 6.7 pounds' per nare' inch, .the'jdew-p'oint temperatur .ou d-then be 43".de`grees Fahrenheit@ "43 degrees ever, the proportionate variation required each constant .unit o ffrisey intemperature the corresponding rlse' 1n pressurels a progrescubic feet of' free faint-compressed' into'r thequiredpressure being 4:2'1 p 'linde jpe'rfsquare such fajsfwill vary the' proportionatefopera fton lofgthe means differentially actuated fby consequence of, ;fthe temperaturej 'c angeglas' o ,sin .present'jcase 4Whe ein the ytemperature'`v i .containing-.-compressled air -or Vfa' -'volatile or instance,-`saythat,it' were-desiredto maintain 28 vgrains of watery Fahrenheit the prcssurein rlthe 'expansion chamber y'21 would be 24.07 Vpounds per '.squareinch-as ag'ainstlf poundsper square be varied.` in lproporti'oni to the pressure lpounds; gagf QeSSure; i. 353.48 `pounds temperature 'of i '48" degrees.. Fahrenheit the required gage ressure yis 10,9126I pounds T therruore,n vvhen'the temperature variations Iare transmitted l ythrough aV -pressure ydevice 1 ufo lsate fntliefdii'erent ratios ofthe' tempera- 'ture and` pressure variations Y such 'ratios ingnotdirectly progortionate las' willbe'seen.l

inchv in'jthe.expansionv chamber 22. This is lequal'toa ratio between theltwo pressures'of i 3.598101', If the'gage` pressure. of the. air ,4in the-dew-point cooler were to rise. to 10,17A poundsjfper' square inch the `dew-point would have. to 'rise 47 'degrees Fahrenheit, and at i the latterftemperature `the' pressure vin the expansion chamber r21 vwould be 24.38

poundsper square inch, 'the ratio between' 5.the two chambers 21 and `22 being then as 2.397 is to 1; with a rise of gage pressure of v the air to 15 pounds per square inch the vdew point-would have tobe raised to 52'degrees Fahrenheit' whi. `would give a pressure 1n the expansion chamber 21 of- 24.77 pounds 4per square inch, the ratio of which being as 1.651 is .to-1. With a gage pressure of 18.38

pounds 'per squareinch of the`air the dewV -point would 'be raisedtq v55 degrees Fahrenheit and the pressure in the expansion chamberV 2 1 would then be 25 pounds per square inch. The new ratiofor this wou d be 1.539 `to1.

From the foregoing it vwill be seen that 20` the pressure of theair in the dew-point cooler will vary through a range 'of approximately 12vpounds per-square inch, and `this will correspond to aran e in pressure' in of the-pipe 36 with the compressed-air in thev dew-point cooler at its discharge end; hence v the expansion chamber 23 will expand and contract in accordance with the vari-ations of the air pressure in the dew-point cooler.

. '40'fThe movable wall of the expansion chamber 23' is inengageme'nt withone arm 37 o f a rocking lever pivoted at 38 upon the base of the controlling apparatus 7. The-other arm .139 of the rocking lever is 'in engagement -45 r'with an arm 40 of another rocking lever pi'votally mounted at 41 upon the base of the controlling apparatus 7, the lother arm`42 thereof-being connected by means of a link Y 43 with the slide 31. -The arm 42 of the sec- .ond said lever is conveniently provided with a counterbalancing weight 44. The coacting facesof the arms 39- 40 of the two rocking levers are cam-like in form so' that as the larms rock upon their pivotal supportstheir leverage ratios will vary. The operationv of this part of the device is as follows. As thev --pressure of the air in the dew-point'cooler increases the expansion chamber 23 will ex- `pand simultaneously with' the expansion 60 chamber 22. The levers 37-39 and 40-42 will thereupon be 'rocked upon their supports to raise'the slide 31 .so as to shift the f ulcrum of the lever 30 to a Vpoint nearer the point at which the expansion chamber22 en- 155" gages the lever 30. The eidet of this 'will be to increase'the effective leverage of'the lever 30 relatively with respect-to that of the lever 28 in order 'to establish the greater lever ratio necessary or't-he increased pressure as 1 above pointed out. As thev -levers 37-39 70 and 40-42 thus rock upon their support the .lever ratio between them will -increase in favor of the weighted end of the lever-42,

the said weight 44 opposing the movement of expansion .of the chamber 23 as will be 75 well' understood, so that as the expansion chamber 23 'expands toa certain extent an equilibrium will Vbe established to Vreventl furtherl movement of the levers 3 --39--` 40-442, until'there is aim-ther increase of S0 pressure in the expansion chambery 23l dueto a further rise of pressure of air in the dewpoint coolerl Of course it will be understood that theforegoing is but one form of compensating means which I may employ as a part of the controlling device, and furthermore, that the controlling device as awhole may be varied in `construction within wide limits' without departing from the spirit and lscope, of my invention. It will also b'e understood that my apparatus is in no wise limited to the range @of pressure and temperatures above recited. The range, however, from i 6% to18 has been mentioned as'being for 95 ordinary purposes the'range usually employedin connection vwith metallurgical processes. Y Y l `What I claim is:

.1. Means for humidifying and 'coolingv100` compressed fairincluding means for varying the temperatureof` the air as the pressure thereof varies, and compensating means for proportioning between' the temperature and pressure variations to maintain a constant weight, ratio between the moisture and air.

2. Means for humidifying and cooling compressed Vair includinga dew-point cooler, means for supplying" a cooling mediumH thereto, means for varying the temperature 11.0 of the cooling medium supplied to the' cooler asv the pressure ofthe air in the cooler varies,`and compensating means for proportioning between the temperature variations of the cooling 'medium and the pressure 11.5 variations of the air,whereby the air 'will' be cooled to apoint wherein at saturation it will always contain a uniform weight of `moisture in proportion to its own weight.

3. The combination with a cooling and humidifying apparatus including means for suppl-ying a-'cooling medium thereto, and means forfsupplyingairunderpressure to the said apparatus, of means for varying the temperature of the cooling medium supplied to the' said apparatus, and controlling means therefor'governedin accordance with the pressure. and temperature of the. compressed air inthe saidapparatus and including compensating means for compensat- '130 tures` and ypressures 4of the air in the Y. ingrifor theI varying ratioslibet-vveen' 'the tem! I dewif-point, cooler :necessary tol maintain a predetermined (proportion of moisture in the E compressed, an saturatedy air.

'-Ihe combination With'humidifying and coolifngmeans, and meansfor suppl ing air A,runder 'pressure `thereto,of Inea'nsA or con trolling the extentto which the air is cooled in- 'the' said `cooling means, comprisingv a controllingV element, ,opposed pressure means theone governed `by, the temperature of the y air in the cooling means and the other by the pressure thereof, "and lever mechanism 5 operated bythe said pressure means and in*4 turn opera-ting the'sald controlling element.`

5. The .combination with humidifyingr and coolin fmeans, and means for supply- .ing air un erlpressure thereto, of means' for 0 controlling theV extent to which `the air is cooledtin the said -cooling'l means, comprising a-controlling element, opposed pressure' `means theone vgoverned by the temperature of the air inthe cooling means and the other" cooled in the said cooling means, compris- 4 5 ing a controlling element, opposed pressure meansthe one governed bythe Atemperature ofthe' air in the cooling means and the other the pressure "thereof, lever mechanism operated by the said pressure means and in 0 turn operating the said controlling element,

and pressure operatedy means also governed rby the ressu're of the air in -l the cooling means, or varying the-ratio of the said lever mechanism.; l 5.` 7. The' combinationwith 'hnmidifying and cooling meansfan'd means `forsupplying air under pressure thereto, of means for controlling the extent to which the air is cooled *inthesaid coolin m`cans,` comprising afluid 0 pressure foperate ,means and a cont-rolllng valve therefonop osed pressure ,means the y one `governed byt e tem erature of the air in the cooling means an the other bythe ressurethereof, lever mechanism operated 5 y the-said vpressure-means and in turn op- .erating thel.,;saidvalve, and pressureopersans for aryingvthe 'ratioof the said i operated bythe said ,pressurfmeans'and in' 'letermechanismu .4 o A, ,y 8 *,"The cammination ,with humidifying cooling means, and means for supplying j' 11' under;prehs'sure `'tliereto,'pf means forl .eo'ntrollingl-the extent to which the air/is l fin-t esaid cooling means, comprising uas the Weigh y 'ure operated means and a, con' .-.,`W1vej therefor, opposed pressure meanslthe one governed 'thetemplerature of Vthe air in .the cooling means and t e other'A by the pressure thereof, lever mechanism `operated ,the said pressure means and in turpoperatin'g. the saadvalve,l and ressure 70 operated means also? governed` by te pres` sure of the-airain` the cooling means,.for l varying the V"ratio of; the said llever mechanism.

a TheJ Combination with hurniaifying v5 and cooling means, and means for supplying .1

air under pressure there-to,of means for con?. Atrolling the extent to which the' air is .cooled in-the-'saidpoolinglmeans, comprising alconn trolling element',fopposed pressure means the 80 'one' governed bythe temperature f f -the air in the cooling means an v'the otherjby'l'the'J.

pressure thereof,Y lever mechanismY operated bythe saidrpressure meansv and in turn op,- v erating the said controlling element," and' 85 pressure operated' means for. "varying the l ratioof thesaid lever'mechanismgsaid res- Sure operated means ':including `Weig ted. lever mechanismvfor opposing the movement f thereof under, increased pressure,j' the said 90 j leverage'incasin in* favor of the weight.

`-is`1i ed.-y y 10.v The combination with humidi andcooling means,'and means for'sn plying 1 g e 'pair under pressure `thereto-,vof means orconf 95 trolling theextent to whichthe airis 'cooled l in theA said coolingmeanrs, comprising a conf` trolling element, opposed pressure .I'nanf the one'governed by the temperature of the air in the cooling meansand the .othcr'by 100- ,the pressure thereof,l lever mechanismlopv f `erated by, `the said A pressure means and 1nv turn operating the said controlling,.element, and pressure operated means alsogoverned by the: pressure of the air` in tliecoolin 105 mans, for varying the ratioV .of the sai lever mechanism,` said ress'ure operated means including Weighted) lever mechanism for opposing; t e movement .thereof .under increased pressure, thel said leverage 'increa's- 110 in ilnfavor o'f'theweight. as )the'weight' Ais l lite.l -\A v 11. The' 'combination with a"dew-point cooler including. means forsupplyinga cooling mediumy thereto, and means for. supplyl 1i5 y ing air 'under pressure to thesaid cooler,I of means for'lgoverning'the temperature ofthe said cooling medium, comprising a' controls,

,ling element, f opposed'pressure- :means the 'one governed 'by thefte'mperature of .the air 120 in the saidvcooler, and ,thel other' by the pressure ogf'such air,': andlever mechanism'.

turn (merating the said controllinn element.

312. The Icombination with'a` evi-point ,1215

ing air under'pressure tothe saidcooler, of means for governing thetemperature of the said coolingfmedium, :omprisingacontrol-k 130 ling element, opposed pressure means the. one governed by the temperature of .the'air in the said cooler, and the other by the pressureof such air, lever mechanism operated by the sa1d pressure means and 1n turnoperating the said-- controlling element, and pres. sure o erated means for varying the ratio of the sald lever mechanism.

18. The combination with a vdew-point cooler including means for' supplying a cooling mediunrthereto, and means for supply l ing air under pressure .to thesaidcooler, of

means for governing'the temperature of the saidcooling medium, comprising a control- .ling' element, opposed pressuremeans the one governed by the temperature of the air in the said cooler, and the other by the pres I sure` of such air, lever mechanism-operated by the said pressure'means' and Iin trrnop-` erating the said controlling element, 'and pressurej operated. means also governed by the-pressure of the'air in the sald cooler, for

' one governedbyft in the said cooler andthe' other by the pres-V sure of such air, lever mechanism operated varying the ratio of the said leverv mechamSm- 14. The combination' with a dew-point coolerincluding means `for supplying, a coolpressure operated .means and controlling valve therefor opposed pressure means, the e `temperature of the air by the said pressure means Aand in turn operating the said va1ve,'and pressure 'operated means forA varying the ratio-of the said levei` mechanism.

ofl means for governing the temperature' o the said cooling medium comprising a fluid pressure operated means anda controlling valve therefor, opposedpressure means the one-governed by .the temperature of the air`` f 56 in tne said-coolerV and the other by the presl' by the said pressure=means and in turn opersure of suchfair, lever mechanism operated ating the said valve and *pressureV operated means also governed airV in-the cooling means Orvaryingftl/ie' ratio of the said lever mechanism.

16. The combination'with Ia. dew-point` cooler including' 'means -for supplying j af' cooling medium thereto, and'means for ,sup- 'v plying air under pressureto the said cooler vof means for'governing thetempe'rature o the said cooling medium,comprising a' con-' trolling element, opposed pressure means the one governed by the temperature df the air in the said cooler, and the otherby the' pressure of such air, lever mechanismoper- '15. .The .combination -with a."dewpoint" cooler including means `for. supplying a' cooling medium'thereto, and means for sup- 1 plying air under pressure 'to the said cooler ated by the said pressure means and in' turn operating the said controlling element, and pressure operated -means for varying the ratio of the said lever mechanism', `th'e said pressure operated means including Weighted lever mechanism for opposing the movement thereof under increased pressure,\tl1e` `one Governed by the temperature of the airg n t .e said cooler, and the other by' the Ipressure of such air, lever mechanism operated by the said pressure means and, -in turn operating the said controlling element, and pressure operated means also governed by the pressure of the air in the coolingmeans f or varying .the ratio of the said lever mechanism, the saidi pressure operated means in-z cluding weighted lever mechanism for opposing the movement'thereof underl increased pressure, the said leverage increasing in favor of the weight as the Wei ht lifted.

18. The combmation with umidifying andV cooling means, and means for supplying air 'under pressure thereto, Aof means for the extent to-which the air isv controll' cooled in t e said cooling' means, comprising a .controlling element, opposed pressure means the one governed by the temperature of the ail-'inV the cooling meansand the other by the pressure thereof "connected levers operativel connected the said pressure means an arrangedixtheirmovements to operate. the `said controllingelelment, and ressure operated means forja ifting the ulcrum of one of .the levers.

19. .The comb1nat1on-jv1 h` humldifying and cooling means, means for supplying.`

air under pressure thereto, of means for controllin' the extent-to-which the air is cooled t e said cooling means, comprising a controlling f element, opposed4 pressure means theone governed by thel temperature o'f the air in the'cooling means and the other u ,-by 'thepressurethereof connected levers by the pressure .0f the...l

operatively connected with the `said pressure means and arranged in their movements to`operate'.the 'said controlling element, and

pressure operated'ineans also governed by the. pressure ofthe air in the cooling means',

for shifting the fulcrumof one of the said levers.

air under vpressure thereto, of meansfor controllin the extent to which the air is ,cooled in t e said cooling means, comprising a-iluidpressure operated means and a controll-ing valve therefor, op pressure 'means the' one governed by fof .the air in the' coolin e temperature means, andthe!V other by the 'pressure t ereof, connected levers-operatively 'connected with' thelsaid pressure means and arranged in theil'i*li vey ments to 'operette the said valve,` und preslsure operetedu meansl for shiftingf'the fulf chum-of one'of thesaid levers.

21. The combination with -hurnidifyinjg4 and cooling 'n ieeris,4 end means for supplying i' an under "pressure thereto, of means" for controlling the eXtent-to'which theecooled 'in the saidboling means, compris controlling valve therefor, opl'posed pressure I means the one governed t of' the' air invthe c'ooln f :rlaltively4 connected with the* said pressure 1 meen'swand arranged intheirlovements t0 'operate the seid valve,` "ands ated means also governedy byblle p r'essure of air .under 'pressure `there to ,of means fonemithe air in the cooling Ineens 'for `s the fulcruni'ojf oneofth'seid'evers.-

' trolling 'theexteiit to'lwhichfthe eir is cooled means und' arranged .llnef-msthl .ofthe air'ln the "cooling means' and t e other in thessidfoolingmeansycomprising a. con# trollingelement,- opposed 'pressure IneensV the one. governed by 'the temperature 'ofthe air in the "cooling-meins' and the .ot-her. byff thefpressure thereof;v connected levers oper-.1 ative1y'"con 11ected. the said presslir operate the said' c pressure operated/fans folshifting; 'the e f ful'cfrum offene of 'the said' levers, the ssndjv pressurev o 'rated mea ns including. Weighted" `4'lex'fer mec anis'm 'foncpposing-.the 4 move-- ment 4thereof under increased ,f'pressurg the n l f avor` 0f' the' Said leverage 4v lncreasing in' and cooling r'ieans'j forsupplye.

byltliei fessure thereof,' 'connected'levers means and the pressure of the Vsir in thecooling Ineens, fonshifting the fulcrum'of one ofst lidV levers, the said pressure operated lne'elljsin- 'fopertive y connected vvithtlle pressure i ged-in their movements' to;

controlling. element, fund ing a vfluid pressurebp'erted niee-nsend a;

e tem eraturef means a'ndt e'otherby the pressure thereo connected levers op' l sure`t l1"e1"e f, connected levers operatively connected withthe -sald pressure lIneens and rferrangedn their-movements to operate 'the said er pressure'thereto of. means for". "controlling-the `extent' to the a1'1 '1 s c ooledf'in the-saidcoolng means, :comprising 24. The' cbm'bimin @with a 1w-pont cooler including means for supplyinge cooling `medium,'therctffh and means ,for supply-i ing @if V.wilder pressurethesaid molar, of

' ymeans fon` governing' the temperature of the 'said cooling gcmedium, comprising a `controlling e1e1net, opposed pressure fmeans'" the mg arundcr pressure'to Vthe saidcoolei, of

means for governing thetemperature of the isaid` cooling medi-um, comprising'e controlling element, opposed'- pressure r means the one' governed by the-temperature of th air in 'the said cooler .endthe-other'by the pres.h

-cofntijolling `elen ient, and pressure oper'.4`- 'eansalso 'overned by thev ressure of r.1n the in means for s means `for supplyng'-ecooling medium hereto, ean's'forverying the temperature' f the, supplied to thecoolel" as th'epressurefof'tlie 'air '1n the cooler varies, "di'erentially operated pressure meansthessid coolin' 4ap aratus belng proiam er located 1n 'the patliofthe cooled 'air currents thereinz the 'Saidjclosed chamber containing an'expan'sif ble. fluid and being in 'communication with 'the :seidpressuregmeans upon one-side. there- Iof,4 the other sfide' 0f the 'seid dilferentially rectly to'the'pressure ofthe coole ein Vv2'@ Means "for Vhurnidify'ing.1 -end cooling4 compressed air including adewpointcoole'r,

therein,ineensl or vsr'ying the' hperetur` ofthe cooling medinmsupplied to t e cooler as the pressure bf the air in the V*coolerver1e's,'compr ising differentially operated ypi'e's- 120,

stratus be-j" sure means,the sai-d cooling -ap 'r localted.

'ing provided with a closed cham pensible: fluid .and being-1n communication- Wth the-'Seid ressure4 means uponfone-sidef thereof, the' tially fo erated -pnessuree mean's'bein Subjecte'd directly to' thejprcssure of the co01b d lair, and' -compe'nsat ing"ineens" automaticell l operated by' the pressure of thel cooled r'130 for :varying the eiciency'of the'said dilfferentially operated `fluld pressure means upon one side thereof..'

. 28. Means for'humidifyingand compressed air including a dew-point cooler,

means for sup lying a' cooling mdium "thereto, means o'r varying the tem `rature nism therefor, and' diiferentiall operated" rpressure means opera-ting throng of the cooling'medium supplied'to t e cooleras'the temperature in the cool varies, com prising a 4controlling element, ever mechathe lever mechanism .t'o'govern the movement of the controller, Athe said cooling apparatus i provided with a' closed chamber loeetedin Y 8. '1, oo1.eee

re'ssure means upon one side thereof the ot er side' of the said means leing subjected` directly to sure of theeooled air, and means also controlled bythe pressure 'of the cooled air, for

varying the y lever ratio of the Said lever mechanism. 

